int isPartPakfile(const char *filename) {
FILE *file = fopen(filename, "rb");
if (file == NULL)
err_exit("Can't open file %s\n", filename);
struct p2_partmap_info partinfo;
size_t size = sizeof(struct p2_partmap_info);
fread(&partinfo, 1, size, file);
char *cmagic;
asprintf(&cmagic, "%x", partinfo.magic);
if (isdatetime((char *)cmagic)) {
printf("Found valid partpak magic 0x%x in %s\n", partinfo.magic, filename);
} else {
return 0;
}
detect_model(&(partinfo.dev));
fclose(file);
if (part_type == STRUCT_INVALID)
return 0;
else
return 1;
}
/*-----------------------------------------------------------------------------
Name : detect_usb
Purpose : Detect USB printers
Inputs : printers : printers array
max : printers array size
Outputs : Fills printers array with model and port information
Return : number of printers detected
-----------------------------------------------------------------------------*/
static int detect_usb(aps_printer_t *printers,int max)
{
aps_port_t *p[MAX_USB_PORTS];
aps_error_t errnum;
char identity[APS_IDENTITY_MAX+1];
char uri[APS_URI_MAX+1];
int i,n;
int model;
int detected;
/*list and open USB ports*/
n = usb_list_ports(p,MAX_USB_PORTS);
for (i=0; i<n; i++) {
aps_open(p[i]);
}
/*detect printers*/
detected = 0;
for (i=0; i<n && detected<max; i++) {
errnum = APS_OK;
#if 1
{
char buf[256];
usb_get_uri(p[i],buf,256);
printf("DEBUG: port:%s\n",buf);
}
#endif
if (errnum==APS_OK) {
errnum = aps_set_write_timeout(p[i],100);
}
if (errnum==APS_OK) {
model = MODEL_INVALID;
if (model<0) {
model = detect_model(p[i],identity,sizeof(identity),&cmd_aps);
}
if (model<0) {
model = detect_model(p[i],identity,sizeof(identity),&cmd_escpos);
}
}
#if 1
{
printf("DEBUG: model:%d\n",model);
}
#endif
if (errnum==APS_OK && model>=0) {
if (aps_get_port_uri(p[i],uri,sizeof(uri))>=0) {
printers->model = model;
strcpy(printers->identity,identity);
strcpy(printers->uri,uri);
printers++;
detected++;
}
}
}
/*close and destroy ports*/
for (i=0; i<n; i++) {
aps_flush(p[i]);
aps_close(p[i]);
aps_destroy_port(p[i]);
}
return detected;
}
/*-----------------------------------------------------------------------------
Name : detect_parallel
Purpose : Detect parallel printers
Inputs : printers : printers array
max : printers array size
Outputs : Fills printers array with model and port information
Return : number of printers detected
-----------------------------------------------------------------------------*/
static int detect_parallel(aps_printer_t *printers,int max)
{
aps_port_t *p[MAX_PARALLEL_PORTS];
aps_error_t errnum;
char device[DEVICE_MAX+1];
char identity[APS_IDENTITY_MAX+1];
char uri[APS_URI_MAX+1];
int model;
int i,n;
/*create parallel ports and wake-up printers*/
for (i=0; i<MAX_PARALLEL_PORTS; i++) {
snprintf(device,sizeof(device),"/dev/parport%d",i);
p[i] = aps_create_parallel_port(device);
if (p[i]==NULL) {
errnum = APS_INVALID_PORT;
}
else {
errnum = aps_get_error(p[i]);
}
if (errnum==APS_OK) {
/*detect parallel port mode*/
if (detect_parallel_irq(i)) {
errnum = aps_parallel_set_mode(p[i],APS_IRQ);
}
else {
errnum = aps_parallel_set_mode(p[i],APS_POLL);
}
}
if (errnum==APS_OK) {
errnum = aps_open(p[i]);
}
if (errnum==APS_OK) {
errnum = aps_parallel_reset(p[i]);
}
}
/*wait for printers to wake up*/
sleep(2);
/*detect printers*/
n = 0;
for (i=0; i<MAX_PARALLEL_PORTS && n<max; i++) {
if (p[i]==NULL) {
errnum = APS_INVALID_PORT;
}
else {
errnum = APS_OK;
}
/*TODO: check if printer is connected*/
if (errnum==APS_OK) {
errnum = aps_set_write_timeout(p[i],100);
}
if (errnum==APS_OK) {
model = MODEL_INVALID;
if (model<0) {
model = detect_model(p[i],identity,sizeof(identity),&cmd_aps);
}
if (model<0) {
model = detect_model(p[i],identity,sizeof(identity),&cmd_escpos);
}
}
if (errnum==APS_OK && model>=0) {
if (aps_get_port_uri(p[i],uri,sizeof(uri))>=0) {
printers->model = model;
strcpy(printers->identity,identity);
strcpy(printers->uri,uri);
printers++;
n++;
}
}
}
/*close and destroy ports*/
for (i=0; i<MAX_PARALLEL_PORTS; i++) {
if (p[i]!=NULL) {
aps_flush(p[i]);
aps_close(p[i]);
aps_destroy_port(p[i]);
p[i] = NULL;
}
}
return n;
}
/*-----------------------------------------------------------------------------
Name : detect_serial
Purpose : Detect serial printers
Inputs : printers : printers array
max : printers array size
Outputs : Fills printers array with model and port information
Return : number of printers detected
-----------------------------------------------------------------------------*/
static int detect_serial(aps_printer_t *printers,int max)
{
aps_port_t *p[MAX_SERIAL_PORTS];
aps_error_t errnum;
char device[DEVICE_MAX+1];
char identity[APS_IDENTITY_MAX+1];
char uri[APS_URI_MAX+1];
int baudrate;
int handshake;
int model;
int i,n;
/*create serial ports and wake-up printers*/
for (i=0; i<MAX_SERIAL_PORTS; i++) {
snprintf(device,sizeof(device),"/dev/ttyS%d",i);
p[i] = aps_create_serial_port(device);
if (p[i]==NULL) {
errnum = APS_INVALID_PORT;
}
else {
errnum = aps_get_error(p[i]);
}
if (errnum==APS_OK) {
errnum = aps_open(p[i]);
}
if (errnum==APS_OK) {
errnum = aps_serial_set_baudrate(p[i],APS_B1200);
}
if (errnum==APS_OK) {
errnum = aps_serial_set_handshake(p[i],APS_NONE);
}
if (errnum==APS_OK) {
unsigned char c = NUL;
errnum = aps_write(p[i],&c,1); /*wake-up*/
}
}
/*wait for printers to wake up*/
sleep(2);
/*detect printers*/
n = 0;
for (i=0; i<MAX_SERIAL_PORTS && n<max; i++) {
if (p[i]==NULL) {
errnum = APS_INVALID_PORT;
}
else {
errnum = APS_OK;
}
/*TODO: check if printer is connected*/
if (errnum==APS_OK) {
errnum = aps_set_write_timeout(p[i],100);
}
if (errnum==APS_OK) {
model = MODEL_INVALID;
for (baudrate=APS_B115200; baudrate>=APS_B1200; baudrate--) {
if ((errnum = aps_serial_set_baudrate(p[i],baudrate))<0) {
break;
}
if ((errnum = aps_serial_set_handshake(p[i],APS_NONE))<0) {
break;
}
memset(identity, 0, sizeof identity);
if (model<0) {
model = detect_model(p[i],identity,sizeof(identity),&cmd_aps);
}
memset(identity, 0, sizeof identity);
if (model<0) {
model = detect_model(p[i],identity,sizeof(identity),&cmd_escpos);
}
if (model>=0) {
errnum = detect_serial_handshake(p[i],model);
if (errnum>=0) {
handshake = errnum;
errnum = aps_serial_set_handshake(p[i],handshake);
}
break;
}
}
}
if (errnum==APS_OK && model>=0) {
if (aps_get_port_uri(p[i],uri,sizeof(uri))>=0) {
printers->model = model;
strcpy(printers->identity,identity);
strcpy(printers->uri,uri);
printers++;
n++;
}
}
}
/*close and destroy ports*/
for (i=0; i<MAX_SERIAL_PORTS; i++) {
if (p[i]!=NULL) {
aps_flush(p[i]);
aps_close(p[i]);
aps_destroy_port(p[i]);
p[i] = NULL;
}
}
return n;
}
